Kekuatan Impak Resin Akrilik Polimerisasi Panas dengan Penambahan 0,3% , 0,6% dan 0,9% Serat Polietilen
38
DAFTAR PUSTAKA
1.
Power JM, Sakaguchi RL. Craig’s restorative dental materials. 12th Ed. Missouri:
Mosby Company., 2006: 514-9.
2.
Mowade TK, Dange SP, Thakre MB, Kamble VD. Effect of fiber reinforcement
on impact strength of heat polymerized polymethyl methacrylate denture base
resin : in vitro study and SEM analysis. J Adv Prosthodont 2012; 4: 30-6.
3.
Noort R. Introduction to dental materials. 3rd Ed. London: Mosby Elsevier., 2007:
216-22.
4.
Anusavice, KJ. Philips’ science of dental material. 11th Ed. Elsevier., 2008: 74101, 144-69.
5.
Manappallil JJ. Basic dental materials. 2nd Ed. New Delhi: Jaypee Brothers
Medical Publishers., 2003: 99-141.
6.
Ferracane JL. Materials in dentistry: principles and applications. 2nd Ed.
Philadelphia: Lippincott Wiliams and Walkins., 2001: 262-5.
7.
Craig RG, Powers JM, Watana JC. Dental material: properties and manipulation.
7th Ed. India: Mosby., 2000: 257-67.
8.
Nirwana I. Kekuatan transversa resin akrilik hybrid setelah penambahan glass
fiber dengan metode berbeda. Dent J 2005; 38(1): 16-9.
9.
Narva KK, Valittu PK, Helenius H, Yli-Upro A. Clinical survey of acrylic resin
removable denture repairs with glass fiber reinforcement. Int J Prosthodont 2001;
14(3): 219-24.
10. Combe, EC. Sari dental material. Alih Bahasa. Slamat T, Jakarta: Balai Pustaka,
1992: 267-81.
11. Uzun G, Keyf F. The effect of woven, chopped and longitudinal glass fiber
reinforcement on the transverse strength of a repair resin. J Biomater Appl 2001;
15: 351-6.
12. Uzun G, Hersek N, Tincer T. Effect of five woven fiber reinforcements on the
impact and transverse strength of a denture base resin. J Prosthet Dent 1999;
81(5): 616-20.
Universitas Sumatera Utara
39
13. Mccabe JF. Applied Dental Materials. 7th Ed. London: Blackwell., 1990: 88-90.
14. Vodjani M, Khaledi AAR. Transverse strength of reinforced denture base resin
with metal wire and e-glass fiber. Dent J 2006; 3(4): 167-71.
15. Matthews FL, Rawlings RD. Composite materials: engineering and science.
London, Woodhead Publishing Limited, 1999: 35-45.
16. Soekobagiono, Santoso WA, Salim S. Kekuatan transversa resin akrilik heat
cured yang ditambah ultra high molecular weight polyethylene fiber. J of
Prosthodont 2012; 3(2): 6-11.
17. Bae JM, Yu SH, Lee Y, OH S, Cho HW, Oda Y. Reinforcing effects of different
fibers on denture base resin based on the fiber type, concentration, and
combination. Dent Mater J 2012; 31(6): 1039-46.
18. Alla RK, Sajjan S, Alluri RV, Ginjupalli K, Upadhya N. Influence of fiber
reinforcement on the properties of denture base resins. J Biomater and
Nanobiotechnology 2013; 4:91-7.
19. Watri D. Pengaruh penambahan serat kaca pada bahan basis gigitiruan resin
akrilik
polimerisasi
panas
terhadap
kekuatan
impak
dan
transversal.
http://repository.usu.ac.id/handle/123456789/21739.(7 Juli 2013).
20. Goguta L, Marsavina L, Bratu D, Topala F. Impact strength of acrylic heat curing
denture base resin reinforced woth e-glass fibers. J Timisoara Medical 2006;
56(1): 88-92.
21. Prasad H, Kalavathy, Mohammed HS. Effect of glass fiber and silane treated
glass fiber reinforcement on impact strength of maxillary complete denture.
Annals and Essences of Dentistry J 2011; 3(4): 7-12.
22. Stipho HD. Repair of acrylic resin denture base reinforced with glass fiber. J
Prosthet Dent 1998; 80(5): 546-50.
23. Tacir IH, Kama JD, Zortuk M, Eskimez S. Flexural properties of glass fiber
reinforced acrylic resin polymers. Australian Dental J 2006; 51(1): 52-6.
24. Zarb GA, Bolender CL, Eckert SE, et al. Prostodontic treatment for edentulous
patient: complete dentures and implant-supported prostheses. India: Elsevier.,
2004: 190-5.
Universitas Sumatera Utara
40
25. Walls AWG, Mccabe JF. Applied Dental Materials. 9th Ed. Munksgaard:
Blackwell.,2008: 110-23.
26. Sadamori S, Ishii T, Hamada T, Razak A. A comparison of three dimensional
change in maxillary complete denture conventional heat polymerizing and
microwave polymerizing techniques. Dent J 2007; 40(1): 6-10.
27. Salim S. Different curing methods on transverse strength of acrylic resin. Dent J
2010; 43(1): 40-3.
28. Mahalistiyani R, Ratwati DF. Pengaruh bahan penguat serat gelas terhadap
kekuatan transversal lempeng akrilik. Maj Ked Gig 2006; 21(4): 140-5.
29. Pirez de Souza F, Panzeri H, Vieira MA, Garcia L, Consani S. Impact and
fracture resistance of an experimental acrylic polymer with elastomer in different
proportions. Mater Res J 2009; 12(4): 415-8.
30. Faot F, Panza LHV, Garcia RCMR, Cury AADB. Impact and flexural strength,
and fracture morphology of acrylic resins with impact modifiers. Dent J 2009; 3:
137-43.
31. Bashi TK, Nema LM. Evaluation of some mechanical properties of reinforced
acrylic resin denture base material an in vitro study. Al-Rafidain Dent J 2009;
1(9): 57-65.
32. Nicholas
B.
Artificial
fibers-polymeric
fibers,
other
synthetic
fibers.
(12 Juli 2013).
33. Kevlar, Spectra. Polymeric reinforcing fibers. Brent Strong/Brigham Young
University. 1-15.
34. Sharma KG. Easily processable ultra high molecular weight polyethylene with
narrow molecular weight distribution. Thesis. Belanda: Universiteit Eindhoven,
2005: 1-33.
35. Fu J, Ghali BW, Lozynsky AJ, Oral E, Muratoglu OK. Ultra high molecular
weight polyethylene with improved plasticity and toughness by high temperature
melting. Elsevier: J Polymer 2010; 51: 2721-31.
36. Park JB, Bronzino JD. Biomaterials principles and applications. Florida: CRC
Press 2002: 62-3.
Universitas Sumatera Utara
41
37. Kamble VD, Parkhedkar RD. The effect of different fiber reinforcement on
flexural strength of provisional restorative resins: in a-vitro study. J Adv Prost
2012; 4: 1-6.
38. Cheng JJ. Mechanical and chemical properties of high density polyethylene:
Effect of microstructure on creep characteristics. Thesis. University of Waterloo,
2008: 1-43.
39. Galiano
R.
Polymer
Materials.
(18 Juli 2013).
40. Anonymous. (22 Juli 2013).
41. Narva K, Lassila LV, Vallittu PK. The static strength and modulus of fiber
reinforced denture base polymer. Dent Mater J 2005; 21: 421-8.
42. Rahamneh A. Impact strength of acrylic resin denture base material after the
addition of different fibres. Pakistan Oral & Dent J 2009; 29(1): 181-3.
43. Hanafiah KA. Rancangan percobaan: teori dan aplikasi. Edisi 3. Jakarta: PT Raja
Grafindo Persada., 2011: 9-10.
44. Faot F, Costa MA, Cury ADB, Garcia RCM. Impact strength and fracture
morphology of denture acrylic resins. J Prosthet Dent 2006; 96(5): 367-73.
Universitas Sumatera Utara
DAFTAR PUSTAKA
1.
Power JM, Sakaguchi RL. Craig’s restorative dental materials. 12th Ed. Missouri:
Mosby Company., 2006: 514-9.
2.
Mowade TK, Dange SP, Thakre MB, Kamble VD. Effect of fiber reinforcement
on impact strength of heat polymerized polymethyl methacrylate denture base
resin : in vitro study and SEM analysis. J Adv Prosthodont 2012; 4: 30-6.
3.
Noort R. Introduction to dental materials. 3rd Ed. London: Mosby Elsevier., 2007:
216-22.
4.
Anusavice, KJ. Philips’ science of dental material. 11th Ed. Elsevier., 2008: 74101, 144-69.
5.
Manappallil JJ. Basic dental materials. 2nd Ed. New Delhi: Jaypee Brothers
Medical Publishers., 2003: 99-141.
6.
Ferracane JL. Materials in dentistry: principles and applications. 2nd Ed.
Philadelphia: Lippincott Wiliams and Walkins., 2001: 262-5.
7.
Craig RG, Powers JM, Watana JC. Dental material: properties and manipulation.
7th Ed. India: Mosby., 2000: 257-67.
8.
Nirwana I. Kekuatan transversa resin akrilik hybrid setelah penambahan glass
fiber dengan metode berbeda. Dent J 2005; 38(1): 16-9.
9.
Narva KK, Valittu PK, Helenius H, Yli-Upro A. Clinical survey of acrylic resin
removable denture repairs with glass fiber reinforcement. Int J Prosthodont 2001;
14(3): 219-24.
10. Combe, EC. Sari dental material. Alih Bahasa. Slamat T, Jakarta: Balai Pustaka,
1992: 267-81.
11. Uzun G, Keyf F. The effect of woven, chopped and longitudinal glass fiber
reinforcement on the transverse strength of a repair resin. J Biomater Appl 2001;
15: 351-6.
12. Uzun G, Hersek N, Tincer T. Effect of five woven fiber reinforcements on the
impact and transverse strength of a denture base resin. J Prosthet Dent 1999;
81(5): 616-20.
Universitas Sumatera Utara
39
13. Mccabe JF. Applied Dental Materials. 7th Ed. London: Blackwell., 1990: 88-90.
14. Vodjani M, Khaledi AAR. Transverse strength of reinforced denture base resin
with metal wire and e-glass fiber. Dent J 2006; 3(4): 167-71.
15. Matthews FL, Rawlings RD. Composite materials: engineering and science.
London, Woodhead Publishing Limited, 1999: 35-45.
16. Soekobagiono, Santoso WA, Salim S. Kekuatan transversa resin akrilik heat
cured yang ditambah ultra high molecular weight polyethylene fiber. J of
Prosthodont 2012; 3(2): 6-11.
17. Bae JM, Yu SH, Lee Y, OH S, Cho HW, Oda Y. Reinforcing effects of different
fibers on denture base resin based on the fiber type, concentration, and
combination. Dent Mater J 2012; 31(6): 1039-46.
18. Alla RK, Sajjan S, Alluri RV, Ginjupalli K, Upadhya N. Influence of fiber
reinforcement on the properties of denture base resins. J Biomater and
Nanobiotechnology 2013; 4:91-7.
19. Watri D. Pengaruh penambahan serat kaca pada bahan basis gigitiruan resin
akrilik
polimerisasi
panas
terhadap
kekuatan
impak
dan
transversal.
http://repository.usu.ac.id/handle/123456789/21739.(7 Juli 2013).
20. Goguta L, Marsavina L, Bratu D, Topala F. Impact strength of acrylic heat curing
denture base resin reinforced woth e-glass fibers. J Timisoara Medical 2006;
56(1): 88-92.
21. Prasad H, Kalavathy, Mohammed HS. Effect of glass fiber and silane treated
glass fiber reinforcement on impact strength of maxillary complete denture.
Annals and Essences of Dentistry J 2011; 3(4): 7-12.
22. Stipho HD. Repair of acrylic resin denture base reinforced with glass fiber. J
Prosthet Dent 1998; 80(5): 546-50.
23. Tacir IH, Kama JD, Zortuk M, Eskimez S. Flexural properties of glass fiber
reinforced acrylic resin polymers. Australian Dental J 2006; 51(1): 52-6.
24. Zarb GA, Bolender CL, Eckert SE, et al. Prostodontic treatment for edentulous
patient: complete dentures and implant-supported prostheses. India: Elsevier.,
2004: 190-5.
Universitas Sumatera Utara
40
25. Walls AWG, Mccabe JF. Applied Dental Materials. 9th Ed. Munksgaard:
Blackwell.,2008: 110-23.
26. Sadamori S, Ishii T, Hamada T, Razak A. A comparison of three dimensional
change in maxillary complete denture conventional heat polymerizing and
microwave polymerizing techniques. Dent J 2007; 40(1): 6-10.
27. Salim S. Different curing methods on transverse strength of acrylic resin. Dent J
2010; 43(1): 40-3.
28. Mahalistiyani R, Ratwati DF. Pengaruh bahan penguat serat gelas terhadap
kekuatan transversal lempeng akrilik. Maj Ked Gig 2006; 21(4): 140-5.
29. Pirez de Souza F, Panzeri H, Vieira MA, Garcia L, Consani S. Impact and
fracture resistance of an experimental acrylic polymer with elastomer in different
proportions. Mater Res J 2009; 12(4): 415-8.
30. Faot F, Panza LHV, Garcia RCMR, Cury AADB. Impact and flexural strength,
and fracture morphology of acrylic resins with impact modifiers. Dent J 2009; 3:
137-43.
31. Bashi TK, Nema LM. Evaluation of some mechanical properties of reinforced
acrylic resin denture base material an in vitro study. Al-Rafidain Dent J 2009;
1(9): 57-65.
32. Nicholas
B.
Artificial
fibers-polymeric
fibers,
other
synthetic
fibers.
(12 Juli 2013).
33. Kevlar, Spectra. Polymeric reinforcing fibers. Brent Strong/Brigham Young
University. 1-15.
34. Sharma KG. Easily processable ultra high molecular weight polyethylene with
narrow molecular weight distribution. Thesis. Belanda: Universiteit Eindhoven,
2005: 1-33.
35. Fu J, Ghali BW, Lozynsky AJ, Oral E, Muratoglu OK. Ultra high molecular
weight polyethylene with improved plasticity and toughness by high temperature
melting. Elsevier: J Polymer 2010; 51: 2721-31.
36. Park JB, Bronzino JD. Biomaterials principles and applications. Florida: CRC
Press 2002: 62-3.
Universitas Sumatera Utara
41
37. Kamble VD, Parkhedkar RD. The effect of different fiber reinforcement on
flexural strength of provisional restorative resins: in a-vitro study. J Adv Prost
2012; 4: 1-6.
38. Cheng JJ. Mechanical and chemical properties of high density polyethylene:
Effect of microstructure on creep characteristics. Thesis. University of Waterloo,
2008: 1-43.
39. Galiano
R.
Polymer
Materials.
(18 Juli 2013).
40. Anonymous. (22 Juli 2013).
41. Narva K, Lassila LV, Vallittu PK. The static strength and modulus of fiber
reinforced denture base polymer. Dent Mater J 2005; 21: 421-8.
42. Rahamneh A. Impact strength of acrylic resin denture base material after the
addition of different fibres. Pakistan Oral & Dent J 2009; 29(1): 181-3.
43. Hanafiah KA. Rancangan percobaan: teori dan aplikasi. Edisi 3. Jakarta: PT Raja
Grafindo Persada., 2011: 9-10.
44. Faot F, Costa MA, Cury ADB, Garcia RCM. Impact strength and fracture
morphology of denture acrylic resins. J Prosthet Dent 2006; 96(5): 367-73.
Universitas Sumatera Utara